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W4281564053 abstract "Extreme thermal environment, especially transient high thermal load, is one of the great challenges for plasma facing tungsten materials. In this work, the fine-grained W-Y 2 O 3 composites fabricated by nano in-situ composite method were exposed to transient heat loading using electron beams. The microstructure evolution, damage behavior and failure analysis were investigated by experimentally combing with finite element modelling (FEM). Besides, the correlation among thermal shock resistance, microstructure and mechanical properties of the W-Y 2 O 3 composites were initially analyzed. Results show the W-Y 2 O 3 composites obtains superfine microstructure and coherent interface. The surface morphology evolves from smooth to roughness, cracks and melting as the power density increases. Simultaneously, four crack patterns of surface micro-cracks, crack networks, longitudinal cracks and internal transverse cracks were observed. The W-0.3 wt%Y 2 O 3 composites exhibit superior resistance to crack formation attributed to excellent interfacial performance and diffuse Y 2 O 3 hindrance. No obvious damage was found on the surfaces when the power density reached 600 MW/m 2 . With the increasing Y 2 O 3 contents, the thermal resistance of W-Y 2 O 3 composites significantly decreases. Finite element modelling (FEM) analysis shows that the surface damage is the most serious compared to the interior after thermal shock. The damage, especially cracks, are preferentially formed on the surface, and then migrate and expand to the interior. The damage and its evolution are attributed to the palstic thermal strain on the surface caused by thermal stress. Moreover, the higher the mechanical properties of W-Y 2 O 3 composites, especially the high temperature yield stress and elongation, the better high thermal load resistance. These results should be of relevance for the optimum design of W plasma facing materials in future nuclear fusion reactors. • The W-Y 2 O 3 composites prepared by nano in-situ composite method obtains superfine grains and excellent thermal resistance. • The damage and failure process under thermal shock are investigated by experimentally combing with finite element modelling. • Four crack patterns of surface micro-cracks, crack networks, longitudinal and internal transverse cracks are observed. • The correlation among thermal shock resistance, microstructure and mechanical properties of W-Y 2 O 3 composites has proposed." @default.
W4281564053 created "2022-05-27" @default.
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W4281564053 date "2022-09-01" @default.
W4281564053 modified "2023-10-16" @default.
W4281564053 title "The microstructure evolution, damage behavior and failure analysis of fine-grained W-Y2O3 composites under high transient thermal shock" @default.
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W4281564053 doi "https://doi.org/10.1016/j.ijrmhm.2022.105905" @default.
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